Currentlyworkingon the project"more than a hundredgreat peoplewho workwithout payin exchangeforshares in the company." As stated,many of themhave their ownjobsand businesses, butHTT-to devotedozens ofhoursa week.

First would beworkingnetworkin the US, whichshould belinked toallmajor UScities, and thenmake the projectmovedto Europe, Africa and Asia. HTThas announced thatfor the projectneedbetween seven and19 billiondollars, andCEODirkAlbornsaidthat it is sobroadassessmentrequireddue to unforeseenmaterial pricesandcostsfor a period often years.

HTToperates under thecompany'sfundraisingJumpStartFund, whoseAlbornpresident, and apparentlythere are alreadymany donorsandinvestorswho wantto investmoney. Albornacknowledged that theten-year planmay beambitious, because they did nottake into account theregulationof the legal frameworkand the"political problems".

-We want to betransparent. For us, thefirstgoal is to build"Hiperlup", we want toseein the United States, and if itmade more senseto do itin anotherterritory, it will beso. The goalisto build it. The second goalis to make itcost effective. We have an ideathatthere areluxurycapsules, buttheeconomy classtravelcost20-30 US dollars. Ideally, the ordinary farewould befree, and paidtothecommercials-saysAlborn.

Capsulesshouldfloatednearlysupersonic speedsfrompoint A to pointBonthe airbag,which wouldeliminatefriction- liketurnon the tableforair hockey. Thecapsuleswould bemaintainedpressure, and under thisproject, the travelers during the tripwouldfeelslightlystronger force, asduringtake-offorlanding,orridein an amusement park.

-Whilenotinventthe rightbeam, which wouldreallybe cool, the only wayforsuper-fast journeyisthrough a pipein whichthere were specialconditions-said thenMask.

Wednesday, 3 December 2014

Did you know that the air we breathe isn’t just oxygen, infact
it’s made up of a number of different gases such as nitrogen, oxygen,
carbon dioxide, argon, neon and many others. Each of these gases carry
useful properties so separating them from the air around us is
extremely beneficial.

The process is called fractional distillation and consists of two
steps, the first relies on cooling the air to a very low
temperature (i.e. converting it into a liquid), the second involves
heating it up thus allowing each gas within the mixture to evaporate at
its own boiling point. The key to success here is that every element
within air has its own unique boiling temperature. As long as we know
these boiling temperatures we know when to collect each gas.

So what are the real world benefits of separating and extracting
these gases? Well liquid oxygen is used to power rockets, oxygen gas is
used in breathing apparatus, nitrogen is used to make fertilizers, the
nitric acid component of nitrogen is used in explosives.

The other gases all have their own uses too, for example argon is
used to fill up the empty space in most light bulbs (thanks to its
unreactive nature). Carbon dioxide is used in fire extinguishers and is
great for putting out fires in burning liquids and electrical fires.
There really are too many uses to list but suffice it to say that
fractional distillation is an extremely useful process for humans the
world over.

Monday, 1 December 2014

There’s really a more productive way to spend Black Friday instead of going berserk and storming the stores. A really huge crowd of 90,000 people capable of invading every bigger mall during the yesterday’s run-and-buy frenzy, has made history sending greetings to our reddish neighboring planet. “Today uwingu.com sent almost 90,000 messages to Mars—first time people’s names & messages sent to Mars by radio!” the Uwingu company which crowd funds space projects, said on Twitter. It was a global shout-out event to mark the 50th anniversary of NASA’s Mariner 4 - the first mission to Mars.